The air source heat pump heating system planned, designed, and implemented by Hien has officially
commenced operations in the dormitory area of Binzhou Science and Technology Vocational College.
With a massive 100,000 square meters of heating coverage powered by 18 DLRK-320II ultra-low temperature units,
this project not only provides consistent warmth to the campus but also stands as a flagship case
for Hien’s commitment to combining green infrastructure with smart energy management in the education sector.
Project Highlights
- Partner: Binzhou Science and Technology Vocational College
- Core Demand: Clean, high-efficiency, and stable heating for student dormitories
- Coverage Area: 100,000 Square Meters
- The Solution: A smart heating system centered around 18 units of DLRK-320II ultra-low temperature air source heat pumps
- Performance: Stable operation throughout a full heating season, meeting all temperature targets with significant energy savings.
- Value Proposition: Green energy efficiency, economic operation, and smart control,
- integrated into the campus ecosystem as an innovative infrastructure for both utility and teaching.
I. Advanced Clean Energy Technology: Injecting Green Momentum into the Campus
As a leading air source heat pump manufacturer specializing in R&D and comprehensive heating solutions,
Hien is dedicated to driving low-carbon transitions across industries.
To meet the college’s demand for stable and efficient warmth, the Hien technical team bypassed tr
aditional heating methods in favor of a customized air source central heating system using
DLRK-320II ultra-low temperature units. These units boast powerful heating capacity even in extreme cold,
ensuring a comfortable indoor climate for students and staff. With zero combustion and zero emissions,
this air-to-water heat pump solution protects campus air quality at the source.
II. Smart Control System: Building a "Neural Network" for Campus Energy
This project is more than an equipment upgrade; it is a deep dive into smart campus energy management.
Hien equipped the system with an intelligent control platform capable of:
- Weather forecast based load adjustment
- Time sharing and zone based temperature control
- Remote monitoring and smart diagnostics
This system acts as the campus's "energy neural network"—visible, controllable, and measurable.
It provides a real-world IoT (Internet of Things) application scenario for AI-related majors,
embodying Hien’s philosophy of empowering education through technology.
III. Quantifiable Green Results: Energy Efficiency Beyond Expectations
After a full heating season of stable operation, the system has demonstrated superior economic and
environmental benefits compared to traditional heating methods. Hien delivered more than just warmth;
we provided a "Green Report Card" that includes:
- Drastic reduction in energy consumption and carbon emissions.
- Effective control of operational costs.
These results directly validate the dual advantages of Hien air source heat pumps
in terms of environmental impact and ROI, helping the institution enhance its social image as a green, innovative campus.
IV. From Project to Platform: Redefining Educational Infrastructure
Hien believes that an exceptional project should transcend its basic function and become a platform for extended value.
In this collaboration, the heating system also serves as an open-air Large-scale Practical Training Base.
Real-time operational data, energy efficiency analysis, and maintenance case studies are converted
into teaching resources for relevant engineering majors. By integrating "Equipment as Teaching Tools,"
Hien helps the college bridge the gap between theoretical knowledge and industrial practice.
V. Leading Regional Green Transformation with Technological Responsibility
Located in the High-efficiency Ecological Economic Zone of the Yellow River Delta,
this project’s success resonates with the regional strategy for green development.
Through this large-scale heat pump project, Hien proves that a low-carbon transition
is not only achievable through reliable clean energy technology
but can simultaneously fulfill the goals of comfort, cost savings, and educational empowerment.
Post time: Apr-10-2026